Three-dimensional ground model generation and automated earthwork target model generation system based on parameter input

1. An earthwork target model generation system comprising a processor, wherein said processor is configured to: store a three-dimensional topography shape model and drill boring information in the earthwork target model generation system; generate a three-dimensional borehole model using the drill boring information, interpolation data through a linear interpolation in consideration of a depth value for each rock quality of the drill boring information, a rock layer line through the interpolation data, and a three-dimensional ground model by offsetting information of the three-dimensional topography shape model to the rock layer line; receive a design parameter for an altitude or gradient of a design reference boundary corresponding to a starting line from which a normal surface is started and determine the design reference boundary based on the received design parameter; analyze a transverse change in the rock quality by using the generated three-dimensional ground model and the determined design reference boundary; analyzes vertical boundary conditions of the rock quality associated with the determined design reference boundary using a gradient value for each rock quality or normal surface design information for each ground condition classified as a condition of generating a berm; and generate three-dimensional normal surface information having an outermost point line of a certain gradient at a starting point and an ending point of the design reference boundary.

2. The earthwork target model generation system of claim 1 , wherein the three-dimensional ground model includes layer information in the form of three-dimensional surface data for the each rock quality.

3. The earthwork target model generation system of claim 1 , wherein the processor is configured to designate a direction in which a normal surface is to be generated for each surface.

4. The earthwork target model generation system of claim 1 , wherein the processor is configured to generate a new boundary line from a changing point when the transverse change in the rock quality is recognized.

5. The earthwork target model generation system of claim 1 , wherein the processor is configured to generate the outermost point line of the gradient up to a boundary surface of a vertical condition in which the rock quality is changed and generate an intersection point between the line of the gradient and a vertical boundary condition surface based on the vertical boundary condition.

6. An earthwork target model generation method, the method performed by an earthwork target model generation system having a processor, the method comprising: receiving and storing a three-dimensional topography shape model and drill boring information in the earthwork target model generation system; generating a three-dimensional borehole model using the drill boring information, interpolation data through a linear interpolation in consideration of a depth value for each rock quality of the drill boring information, a rock layer line through the interpolation data, and a three-dimensional ground model by offsetting information of the three-dimensional topography shape model to the rock layer line; receiving a design parameter for an altitude or gradient of a design reference boundary corresponding to a starting line from which a normal surface is started and determining the design reference boundary based on the received design parameter; analyzing a transverse change in the rock quality by using the generated three-dimensional ground model and the determined design reference boundary; analyzing vertical boundary conditions of the rock quality associated with the determined design reference boundary using a gradient value for each rock quality or normal surface design information for each ground condition classified as a condition of generating a berm; and generating three-dimensional normal surface information having an outermost point line of a certain gradient at a starting point and an ending point of the design reference boundary.

7. The earthwork target model generation method of claim 6 , wherein the three-dimensional ground model includes layer information in the form of three-dimensional surface data for the each rock quality.

8. The earthwork target model generation method of claim 6 , the method further comprising: designating a direction in which a normal surface is to be generated for each surface.

9. The earthwork target model generation method of claim 6 , generating a new boundary line from a changing point when the transverse change in the rock quality is recognized.

10. The earthwork target model generation method of claim 6 , wherein the generating of the normal surface information comprises: generating the outermost point line of the gradient up to a boundary surface of a vertical condition in which the rock quality is changed; and generating an intersection point between the line of the gradient and a vertical boundary condition surface based on the vertical boundary condition.